4
Find the area of the triangle whose vertices are : (i) (2, 3), (–1, 0), (2, – 4)
05
Oct
Find the area of the triangle whose vertices are : (i) (2, 3), (–1, 0), (2, – 4) 0 ) 1 2 3% 4 Find the area of the triangle whose vertices are : (i) (2 October 5, 2020 Category: Chapter 7 - Coordinate Geometry , Maths , NCERT Class 10 ,
Find the area of a rhombus if its vertices are (3,0),(4,5),(−1,4)and(−2,−1) taken in order.
05
Oct
Find the area of a rhombus if its vertices are (3,0),(4,5),(−1,4)and(−2,−1) taken in order. −1 −1) taken in order. 0 ) 4 4)and(−2 5 Find the area of a rhombus if its vertices are (3 October 5, 2020 Category: Chapter 7 - Coordinate Geometry , Maths , NCERT Class 10 ,
Tags:
−1 ,
−1) taken in order. ,
0 ) ,
4 ,
4)and(−2 ,
5 ,
Find the area of a rhombus if its vertices are (3 ,
if a and b are (-2, -2) and (2, – 4), respectively, find the coordinates of P such that AP = 3/7 AB and P lines on the line segment AB.
05
Oct
if a and b are (-2, -2) and (2, – 4), respectively, find the coordinates of P such that AP = 3/7 AB and P lines on the line segment AB. -2) and (2 4 find the coordinates of P such that AP = 3/7 AB and P lines on the line segment AB. if [...]
Find the coordinate of a point A, where AB is the diameter of a circle whose centre is (2,-3) and B is (1,4)
05
Oct
Find the coordinate of a point A, where AB is the diameter of a circle whose centre is (2,-3) and B is (1,4) -3) and B is (1 4 Find the coordinate of a point A where AB is the diameter of a circle whose centre is (2 October 5, 2020 Category: Chapter 7 - [...]
If (1,2),(4,y),(x,6) and (3,5) are the vertices of a parallelogram taken in order, find x and y.
05
Oct
If (1,2),(4,y),(x,6) and (3,5) are the vertices of a parallelogram taken in order, find x and y. 2 4 5) are the vertices of a parallelogram taken in order 6) and (3 find x and y. If (1 X y October 5, 2020 Category: Chapter 7 - Coordinate Geometry , Maths , NCERT Class 10 [...]
Tags:
2 ,
4 ,
5) are the vertices of a parallelogram taken in order ,
6) and (3 ,
find x and y. ,
If (1 ,
X ,
y ,
Find a relation between x and y such that the point (x, y) is equidistant from the point (3,6) and (−3,4).
05
Oct
Find a relation between x and y such that the point (x, y) is equidistant from the point (3,6) and (−3,4). 4 6) and (−3 Find a relation between x and y such that the point (x y) is equidistant from the point (3 October 5, 2020 Category: Chapter 7 - Coordinate Geometry , Maths [...]
Name the type of quadrilateral formed, if any, by the following points, and give reasons for your answer: (4,5),(7,6),(4,3),(1,2)
05
Oct
Name the type of quadrilateral formed, if any, by the following points, and give reasons for your answer: (4,5),(7,6),(4,3),(1,2) 1 2 3% 4 5 6 7) and give reasons for your answer: (4 by the following points if any Name the type of quadrilateral formed October 5, 2020 Category: Chapter 7 - Coordinate Geometry , [...]
Tags:
1 ,
2 ,
3% ,
4 ,
5 ,
6 ,
7) ,
and give reasons for your answer: (4 ,
by the following points ,
if any ,
Name the type of quadrilateral formed ,
Find the distance between the following pairs of points (2,3),(4,1)
05
Oct
Find the distance between the following pairs of points (2,3),(4,1) 1 3% 4 Find the distance between the following pairs of points (2 October 5, 2020 Category: Chapter 7 - Coordinate Geometry , Maths , NCERT Class 10 ,
The potential energy phi , in joule, of a particle of mass 1 kg, moving in the x-y plane, obeys law phi = 3x + 4y, where (x, y) are the coordinates of the particle in metre. If the particle is at rest at (6, 4)
04
Oct
The potential energy phi , in joule, of a particle of mass 1 kg, moving in the x-y plane, obeys law phi = 3x + 4y, where (x, y) are the coordinates of the particle in metre. If the particle is at rest at (6, 4) 4 in joule moving in the x-y plane obeys [...]
A force F = ( 3xy – 5z) j + 4 zk is applied on a particle. The work done by the force when the particle moves from point (0, 0, 0) to point (2, 4, 0) as shown in Fig. 8.250 is
04
Oct
A force F = ( 3xy – 5z) j + 4 zk is applied on a particle. The work done by the force when the particle moves from point (0, 0, 0) to point (2, 4, 0) as shown in Fig. 8.250 is 0) as shown in Fig. 8.250 is 0) to point (2 4 [...]